兰州市典型企业VOCs排放特征及反应活性分析

基于兰州市大气VOCs排放清单,选取石化厂、乙烯厂、涂料厂3个典型企业采集VOCs样品,分析其无组织排放特征,并采用MIR（最大增量反应活性）法和LOH（·OH反应速率）法综合评价其化学反应活性,识别各企业的VOCs活性优势物种,同时探究不同企业特征VOCs比值.结果表明:不同排放源φ（VOCs）差异较大,范围为20.8×10-9~6 520.3×10-9.从VOCs物种构成上来看,涂料厂芳香烃占比最高,而石化厂、乙烯厂均以烷烃物种最为丰富,石化厂不同工艺VOCs物种构成略有差异.从活性上看,涂料厂VOCs活性最高,其LOH和OFP（臭氧生成潜势）分别为2 676.9 s-1和72 519.0×10-9,约为其他行业的18~1 000倍,间/对-二甲苯、乙苯、邻二甲苯等物种活性较大;其次为石化厂,其LOH和OFP分别为273.2 s-1和4 039.1×10-9,正戊烷、异戊烷、乙烯、丙烯等物种活性贡献率高,其中柴油工艺对石化厂VOCs活性贡献率最大;乙烯厂的OFP最低,其LOH和OFP分别为4.6 s-1和69.7×10-9,其VOCs活性主要来自乙烯、丙烯、正丁烯等烯烃物种.各工业源BTEX（苯、甲苯、乙苯及3种二甲苯异构体的合称）分布具有一定的差异,对于指示不同VOCs来源有一定的参考价值,但不同源比值的重叠性也表明并非全部VOCs来源可以通过特征物种比值来区分.研究显示,控制工业源特别是涂料与石化工业VOCs的排放有助于控制兰州市O₃的生成.      

国外气候变化对旅游业影响的定量研究进展与启示

加强气候变化对旅游业影响的定量研究,有助于旅游业在气候变化背景下实现可持续发展。基于SCI/SSCI文献数据库,梳理分析国外气候变化对旅游业影响的定量研究进展。结果显示,30余年来国外主要采用指标方法、需求模型与选择分析方法开展相关研究。20世纪80年代末出现的指标方法是运用最早、最广泛的方法,主要用于旅游资源环境变化等研究,呈现由单项指标转向综合指标的应用趋势;20世纪90年代末兴起的需求模型主要用于天气状况对旅游需求的影响等研究,呈现由时间序列模型转向累计需求模型的应用趋势;21世纪兴起的选择分析主要用于气候变化背景下的行为意愿等研究,呈现由描述统计转向离散选择模型的应用趋势。这些给我国研究的启示是：在研究方法与研究领域上,重点加强累计需求模型在旅游流相关研究中的运用,加强离散选择模型在旅游市场结构相关研究中的运用,加强系统科学方法与大数据技术在相关研究中的运用;在研究对象上,丰富中国境内气候敏感型旅游活动的相关研究,加强“一带一路”沿线国家、地区及青藏高原的相关研究。     

ANAMMOX富集与优化停曝比对MBR-SNAD工艺的影响

采用膜生物反应器（MBR）研究了厌氧氨氧化细菌在富集过程中的活性变化,在启动全程自养脱氮（CANON）工艺中以恒定曝气量,通过优化停曝比实现氨氧化细菌（AerAOB）和厌氧氨氧化细菌（AnAOB）协同脱氮并且有效抑制亚硝酸盐氧化菌（NOB）的活性,然后添加有机物（乙酸钠）逐步启动同步亚硝化-厌氧氨氧化耦合异养反硝化（SNAD）工艺.结果表明,在厌氧氨氧化细菌富集过程中,通过不断缩短水力停留时间（HRT）提高进水氮负荷的方式强化厌氧氨氧化细菌活性,其平均活性由0.603mgN/（h·gVSS）提高到了8.1mgN/（h·gVSS）;当恒定曝气量为50mL/min,停曝比为4：10（min：min）时,AerAOB和AnAOB对氨氮的去除量分别占总氨氮去除量的58.8%和41.2%,NOB氧化亚硝态氮的量占总硝态氮生成量的15.3%,成功抑制了NOB的活性;当C/N比为0.5,调整停曝比为4：15后,反硝化过程氮去除量占总氮去除率的20.9%,厌氧氨氧化过程氮去除量占总氮去除率的79.1%,实现了AerAOB、AnAOB和反硝化细菌（DNB）协同脱氮的目的.     

新型垂直探测资料在污染天气分析中的应用

针对2017年1月上旬广州地区出现的一次持续时间长的重污染天气过程,基于地面观测资料、激光雷达、风廓线雷达和微波辐射计数据,从水平和垂直扩散条件2个方面分析了此次污染过程的形成和维持的原因.结果表明：（1）本次污染过程期间,广州地区地面风速基本为小于2m/s的偏北风,在300m高度以下普遍存在平均水平风速低于2.6m/s的小风层;污染前期640m高度内的各层回流指数廓线小于0.6,100m高度小于0.4,污染缓解后回流指数高于0.7.（2）地面PM_2.5浓度与逆温强度的相关系数为0.42,过程平均逆温厚度167m,平均逆温强度为1.08℃/100m;（3）PM_2.5浓度与边界层高度的相关系数为-0.56,清洁时段的平均边界层高度（876m）约为污染时段（620m）的1.4倍,过程最低边界层高度为267m;PM_2.5浓度与边界层通风量的相关系数为-0.61,清洁时段的平均边界层通风量（2538m²/s）约为污染时段（1136m²/s）的2.2倍,使用边界层通风量能更好表征大气污染的程度.     

氯化石蜡产品中短链和中链同系物的指纹分布

使用气相色谱-电子捕获负化学电离质谱（GC-ECNI-MS）,对包含CP-42、CP-52和CP-70三种常见氯含量的22个CPs产品进行了测定,分析了不同氯含量的CPs产品中短链氯化石蜡（SCCPs）和中链氯化石蜡（MCCPs）同系物的分布模式.SCCPs同系物呈现5种分布特征,分别是CP-42型、三类CP-52型和CP-70型,MCCPs同系物呈现4种分布特征,分别是CP-42型和三类CP-52型,CP-70产品中MCCPs同系物未呈现出一致的分布规律.CPs生产原料石蜡中烷烃的成分组成和CPs生产工艺的不同,是造成产品同系物分布模式不一致的原因.通过统计学分析,得到CPs产品中SCCPs和MCCPs同系物的指纹分布,这是开展环境中CPs的源解析、迁移转化、归趋和毒性风险评价等研究的有利工具.     

基质冲击对ANAMMOX颗粒释放AHLs及颗粒特性的影响

从群体感应角度考察基质冲击对ANAMMOX颗粒特性的影响,以期为提高ANAMMOX颗粒抗基质冲击能力提供理论指导与借鉴.结果表明,24h 1500mg/L总氮冲击刺激颗粒AHLs释放量由4.3大幅增加至10.0,同时颗粒结合性胞外聚合物（B-EPS）过量释放（增加了107.3mg/g VSS）,导致颗粒沉降性能下降（密度和沉速分别降低了53%和33%）.但基质浓度恢复至稳定期水平后,AHLs释放量逐渐恢复至稳定期水平,同时B-EPS产量和颗粒性状也逐渐恢复至稳定期水平,推测基质冲击导致AHLs释放量的变化进而引起B-EPS产量的变化.批次试验结果进一步证实了基质浓度显著影响AHLs释放量,B-EPS产量与AHLs释放量密切相关.总氮浓度为1000mg/L时,AHLs释放量高达11.7,导致B-EPS中的松散结合性EPS（LB-EPS）相比总氮浓度为200mg/L时增加了69mg/g VSS,颗粒沉降性能下降.然而紧密结合性EPS（TB-EPS）含量不受基质浓度影响,认为LB-EPS是决定颗粒沉降能力的关键因素.低浓度抑制剂可有效抑制高基质浓度引起的AHLs过量释放,使LB-EPS产量降低36%,颗粒沉降性能和活性得以提高.     

Development of a model to simulate soil heavy metals lateral migration quantity based on SWAT in Huanjiang watershed, China

Lateral transportation of soil heavy metals in rainfall events could significantly increase the scope of pollution. Therefore, it is necessary to develop a model with high accuracy to simulate the migration quantity of heavy metals. A model for heavy metal migration simulation was developed based on the SWAT(Soil and Water Assessment Tool) model. This model took into consideration the influence of soil p H value, soil particle size, runoff volume, sediment amount,concentration of water-soluble heavy metals dissolved in runoff and insoluble absorbed to the soil particles. This model was reasonable in Huanjiang watershed, Guangxi Zhuang Autonomous Region, south China, covering an area of 273 km~2. The optimal drainage area threshold was determined by analyzing the effects of watershed subdivision on the simulation results to ensure the simulation accuracy. The main conclusions of this paper were:(1) watershed subdivision could affect simulation migration quantity of heavy metals;(2) the quantity of heavy metals transported by sediment accounted for 97%–99% of the total migration quantity in the study watershed. Therefore, sediment played the most important role in heavy metal migration;(3) the optimal drainage area threshold percentage to ensure high simulation accuracy was determined to be 2.01% of the total watershed;(4) with the optimal threshold percentage, this model could simulate the migration quantity of As, Pb and Cd accurately at the total watershed and subwatershed level. The results of this paper were useful for identifying the key regions with heavy metal migration.     

Response of the sediment geochemistry of the Changjiang River (Yangtze River) to the impoundment of the Three Gorges Dam

Based on the measurement of major and trace elements in suspended sediments in the low reaches of the Changjiang River during throughout a whole hydrologic year, the origins, seasonal variations, and fluxes of multielements and the human impacts on multielements transport processes have been analyzed along with the influence of weathering in the Changjiang River basin. The results show that most element contents were high in both autumn and winter and low in summer, which was largely caused by the dilution of discharge. Weathering detritus in the Changjiang River basin is the main source of most elements in suspended sediments. However, riverine pollution could bring more loadings of Cd, Pb, As and Zn into river water than it did a few decades ago. The annual average fluxes of Cd, Pb and Zn, which are major contamination elements, to the sea were 179 ± 21 tons/year, 7810 ± 675 tons/year, and 12,000 ± 1320 tons/year,respectively, in which approximately 8.7%, 11.9% and 2.7% of their loadings, respectively,were contributed by pollution inputs. Element exports mainly occurred in the summer(44.4%–57.4%) in the lower part of the Changjiang River. A general relationship between sediment retention and element content suggests a positive feedback mechanism for the decreased number of particles, in which element riverine loadings are reduced due to the enhanced trapping effect by the Three Gorges Dam(TGD). Compared to those in 1980,current element shares of the Changjiang River compared to the global budget have declined due to the construction of the TGD.     

Enzyme-electrolytic degradation of dichloromethane: Efficiency, kinetics and mechanism

Enzymatic electrolysis cell(EEC) has advantages over microbial electrolysis cell(MEC) due to the needless of microbe inoculation and high-efficiency of enzymatic reaction. In this study, an EEC was first applied to achieve the effective degradation of halogenated organic pollutants and dichloromethane(CH_2Cl_2) was utilized as a model pollutant. The results indicate that the degradation efficiency of CH_2Cl_2 after 2 hr reaction in the EEC was almost100%, which was significantly higher than that with enzyme(51.1%) or current(19.0%). The current induced the continuous regeneration of reduced glutathione(GSH), thus CH_2Cl_2 was degraded under the catalysis of GSH-dependent dehalogenase through stepwise dechlorination, and successively formed monochloromethane(CH_3Cl) and methane(CH_4). The kinetic result shows that with a current of 15 mA, the maximum specific degradation rate of CH_2Cl_2(3.77 × 10~(-3) hr~(-1)) was increased by 5.7 times. The optimum condition for CH_2Cl_2 dechlorination was also obtained with pH, current and temperature of 7.0, 15 mA and 35°C,respectively. Importantly, this study helps to understand the behavior of enzymes and the fate of halogenated organic pollutants with EEC, providing a possible treatment technology for halogenated organic pollutants.     

电子束物理气相沉积制备热障涂层研究进展

介绍了电子束物理气相沉积设备的主要组成、工作原理和电子束物理气相沉积热障涂层的结构特点,并重点论述了工件转速、工件温度、靶材蒸汽入射角度、工件表面的粗糙度、粘结层预氧化、改性粘结层和双层陶瓷层等对电子束物理气相沉积热障涂层性能的影响。